# Stress Condition At A Fluid-Fluid Interface, Lecture Notes - Fluid Dynamics

Stress Condition At A Fluid-Fluid Interface, Physical Interpretation, Stress Balance Equations, Interpretation of Terms, Normal Stress Balance, Tangential stress Balance

# Heat And Energy Convervation, Lecture Notes - Fluid Dynamics

Heat And Energy Conversion, Conversion of Total Energy, Equations of state

# Two Dimensional Laminar Jet, Lecture Notes - Fluid Dynamics

Two Dimensional Laminar Jet, Similarity Solution, Physical Implications

# Leibniz Theorem and RTT - Foundations of Fluid Mechanics I - Lecture Notes

This is the first course of a two-semester fluid mechanics sequence for graduate students in the thermal sciences. This course deals with solutions of these equations, both exact and approximate. Key points of this lecture are: Leibniz Theorem and...

# Stress Condition At A Fluid-Fluid Interface, Lecture Notes - Fluid Dynamics

Stress Condition At A Fluid-Fluid Interface, Physical Interpretation, Stress Balance Equations, Interpretation of Terms, Normal Stress Balance, Tangential stress Balance

# Two Dimensional Laminar Jet, Lecture Notes - Fluid Dynamics

Two Dimensional Laminar Jet, Similarity Solution, Physical Implications

# Examples on Bernoulli Equation - Fluid Mechanics - Lecture Notes

The main points are: Examples on Bernoulli Equation, Several Pipe–Fittings, Power of Pump, Water–Transfer, Energy Balance Equation, Minor Losses, Loss Due to Friction, Frictional Loss, Top-Surface of Water Level, Shaft Work

# Creeping Flow - Fluid Mechanics - Lecture Notes

The main points are: Creeping Flow, Stokes-Law, Terminal Velocity, Boundary-Layer Flows, Low Reynolds-Number Flow, Characteristic Variables, Velocity and Pressure–Fields, Dimensional Analysis, Average Velocity of Fluid

Fluid machinery

# Dimensions - Fluid Mechanics - Lecture Notes

Measured physical properties have a basic dimension in which they are measured. There may be many units that are used to measure this dimension. This is best shown by example. The thickness of an object has the dimension of length.

# 3-D Boundary Layer Cone - Foundations of Fluid Mechanics II - Lecture Notes

This is the second course of a two-semester fluid mechanics sequence for graduate students in the thermal sciences. This course includes topics like fully turbulent flows, turbulent boundary layers and free shear flows, turbulence modeling, lamina...

# 3-D Boundary Layer Equations - Foundations of Fluid Mechanics II - Lecture Notes

This is the second course of a two-semester fluid mechanics sequence for graduate students in the thermal sciences. This course includes topics like fully turbulent flows, turbulent boundary layers and free shear flows, turbulence modeling, lamina...

# Benard and Taylor cells - Foundations of Fluid Mechanics II - Lecture Notes

This is the second course of a two-semester fluid mechanics sequence for graduate students in the thermal sciences. This course includes topics like fully turbulent flows, turbulent boundary layers and free shear flows, turbulence modeling, lamina...